non-coding genes: promising targets for molecular ...€¦ · non-coding genes: promising targets...
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Non-coding genes: promising targets for
molecular biomarkers and disease
modifying epilepsy treatments
European Forum on Epilepsy Research
Dublin, May 25-27th 2013
Topic 4: New targets for innovative diagnostics and treatment
David C. Henshall
Royal College of Surgeons in Ireland
Dublin, Ireland
Pathogenesis of epilepsy
Treatment: • AEDs (symptomatic only)
• Surgery
• Other (diet, brain stimulation)
Key goals:
Better understanding of epileptogenesis
Disease-modifying treatments
Biomarkers of epileptogenesis
Epileptic seizures
Neuronal death
Gliosis
Inflammation
Plasticity
(axonal, dendritic)
Neurogenesis
Extracellular matrix
Metabolism
Animal trials
Rapamycin (structure,
metabolism)
Celecoxib (inflammation)
Growth factors (various)
Neuropeptides (inhibition)
Glutamate
antagonists (excitability,
neuroprotection)
Large-scale
changes in gene
expression
[protein-coding] gene targets in epilepsy
Despite major insights and progress……. errors in protein-coding genes do not explain the majority
of cases of epilepsy
Pitkanen & Lukasiuk Lancet Neurol (2011)
Disappointing anti-epileptogenesis
trials in animals
Non-coding RNA – a new gene focus in epilepsy
Genome
Transcriptome
Prot
The amount of non-coding RNA increases
as a function of organism complexity
Taft et al. Bioessays 2007
Non-coding RNA – forms and functions
Long non-coding RNA (>200 nucleotides)
Largest class of ncRNA in the human genome (100,000+), interact with DNA, RNA & protein
Functions: Epigenetic (guiding methylation); transcriptional/translational interference
Qureshi & Mehler, Nat Rev Neurosci 2012
LncRNA; brain enrichment, emerging functions
Mercer et al. PNAS 2008
…and specific subcellular localization lncRNAs display specific subfield expression
Mercer et al. PNAS 2008
lncRNAs regulate synapse formation
Bernard et al. EMBO J 2010
….and seizure thresholds
Zhong et al. J Neurosci 2009
Short non-coding RNA
Includes microRNA (miRNA) - small non-coding RNAs (~22 nt); ~1500 in humans
Function to fine-tune protein output
“meta” controllers of gene expression – single miRNA may target ~200 mRNAs
• Messenger RNA encodes protein
messenger RNA protein
• MicroRNAs bind to matching parts of the
messenger RNA, reducing protein production
messenger RNA protein
Altered miRNA levels after status epilepticus and in epilepsy
Schratt et al. Nat Rev Neurosci 2009
Critical for excitatory signals
Targeting miRNAs Locked nucleic acid-modified DNA antisense oligonucleotides
• Antagomirs bind to miRNAs, allowing protein
production to resume
messenger RNA protein
antagomir
Jimenez-Mateos et al. Nat Med 2012
Silencing miR-134 reduces seizures
Jimenez-Mateos et al. Nat Med 2012
92% reduction in epileptic seizures
miRNAs and seizures
Increasing numbers of miRNAs linked to seizures and/or epilepsy pathology miRs 21, 34a, 132, 138, 134, 146a, 155, 184…..
Which are the best targets?
How can we “medicinize”?
– Are they safe?
– Administration routes
– Effects on established epilepsy?
New ways to target miRNAs Viral approaches?
Mesenchymal stem cell ADK-targeting miRNAs reduce seizures
Ren et al. Exp Neurol 2007; Li et al. Epilepsy Res 2009
Other future focuses on non-coding RNA in epilepsy
miRNA as diagnostic biomarkers? • Stable in biofluids, pH and freeze-thaw resistant
• Detectable in multiple biofluids (blood, CSF)
• Signal-carrying paracrine functions
• Identify at risk patients, track epileptogenesis, support prognosis
Non-coding RNA variation in human epilepsy? • Sequence variation in ncRNA including miRNA may function as a risk factor
Future
2. Genetics of non-coding RNA Do ncRNA variants have a role in explaining disease risk?
3. Sources of molecular biomarkers Are miRNAs disease biomarkers? Do different precipitating injuries elicit unique signatures?
What is the best biofluid source and ncRNA “pool”?
4. Next generation of disease-modifying treatments? Are drugs acting on ncRNA safe for use in the CNS? How can they be delivered?
Do AEDs or other drugs have any ncRNA-modifying effects?
1. Non-coding RNA is a largely unknown
contributor in epileptogenesis Which short and long ncRNAs are pathogenic vs
adaptive/useful/not important?
What is their mechanism? What controls their expression?